Solid: Edge Synchronous Best ~upd~
Synchronous Technology eliminates the history tree dependency. It blends the speed of direct modeling with the control of parametric design. The system conceptualizes geometry as a collection of faces, using an inference engine to recognize design intent on the fly. Best Practices for Synchronous Modeling
: Maintain smooth transitions between curved faces and flat surfaces during complex geometry morphs. 5. Adopt a Hybrid Strategy (The Best of Both Worlds)
Synchronous features like holes and patterns are "smart." A set of selected faces is recognized as a hole, and you can change its type (e.g., from a counter-sunk hole to a counter-bore) simply by editing its properties. Similarly, allows you to attach pattern properties to a set of faces, creating an "unordered" feature that maintains its intelligence even if the faces were created at different times.
Solid Edge Synchronous Technology represents a fundamental shift in 3D CAD modeling, moving away from the rigid, history-based constraints of traditional parametric design
: Enables simultaneous editing of multiple parts within an assembly without setting up complex inter-part links. solid edge synchronous best
Concept design requires experimentation. History-based CAD discourages radical changes because rewriting the feature tree takes too long. Synchronous technology allows you to drastically alter shapes, move holes, and change angles instantly, drastically reducing time-to-market during the prototyping phase. Best Practices for Maximising Synchronous Technology
Whether you are dealing with imported "dumb" geometry or complex local assemblies, mastering Synchronous Technology can accelerate your design cycles by up to 100x . Core Pillars of Synchronous Technology
The Steering Wheel is the central interaction tool in the synchronous environment. It appears whenever you select a face, feature, or body.
: Allows for direct manipulation of faces using a "steering wheel" interface, enabling modifications 10x faster than history-based modeling. Best Practices for Synchronous Modeling : Maintain smooth
Drag your selection fence from left-to-right to select only items entirely inside the box. Drag right-to-left to select everything the box touches.
Here is why Solid Edge's implementation represents the best modern CAD workflow: 1. Eliminating the Feature Tree Burden
: Do not waste time fully constraining sketches before extruding them.
The best time to start is now.
Apply 3D driving dimensions directly to the model faces. Lock them to ensure vital clearances or thicknesses never change during global modifications.
In a synchronous environment, features are independent. You can edit a base feature without recalculating or breaking subsequent cuts, holes, or blends. This eliminates regeneration delays and frees engineers from the mental overhead of planning the "perfect" feature history before they even start sketching. 2. Live Rules: Automated Design Intent
Casting and molding designs that require complex, sequential draft angles and parting lines.
